The theoretical basis of heat diffusion inferred by D.P. Kharakoz and A.P. Sarvazyan can be tested empirically through pulsed light amplification by stimulated emission of radiation (LASER) experiments. It proposes that heat exchange exists between the interior of the molecule, its solvent shell and the bulk solvent. The fluorescence signal of a myoglobin demonstrate that the temperature of a protein molecule equilibriates with the buffer in less than 20 ns, (super 7,8). The data confirms the applicability of the theory in approximating heat exchange among spherical bodies and their solvents.

Exothermodynamic relationships in liquid chromatography

Article Abstract:

A study attempted to develop an integrated framework for interpreting and analyzing a substantial body of data on exothermodynamics, which heretofore have been applied individually for particular applications. This research organized and demonstrated the different exothermodynamic relations in liquid chromatography, and examined the architecture and commonality of these relationships. Through this investigation, links between different forms of linear free energy relationships were established and criteria for their existence were created. The criteria were tested.

Reply to 'Examination of Claims of Miles et al, in Pons-Fleischmann-Type Cold Fusion Experiments.'

Article Abstract:

Some of the views of Steven E. Jones, et al, regarding a study on excess heat and helium-4 production during electrolysis of the Pd/D2O + LiOD system invite comment. The claims that faradaic efficiencies less than 100% can support excess heat in cold fusion cells is not valid. The anomalous effects in deuterated metals were determined by results of calorimetric studies. However, the authors' criticisms on radiation monitoring may be valid even though it was not a major focus of the study.